Distributive Processing by the Iron(II)/α-Ketoglutarate-Dependent Catalytic Domains of the TET Enzymes Is Consistent with Epigenetic Roles for Oxidized 5-Methylcytosine Bases

Tamanaha, Esta; Guan, Shengxi; Marks, Katherine; Saleh, Lana

Distributive Processing by the Iron(II)/α-Ketoglutarate-Dependent Catalytic Domains of the TET Enzymes Is Consistent with Epigenetic Roles for Oxidized 5-Methylcytosine Bases

2016

Tamanaha, Esta | Guan, Shengxi | Marks, Katherine | Saleh, Lana

The ten-eleven translocation (TET) proteins catalyze oxidation of 5-methylcytosine (⁵ᵐC) residues in nucleic acids to 5-hydroxymethylcytosine (⁵ʰᵐC), 5-formylcytosine (⁵ᶠC), and 5-carboxycytosine (⁵ᶜᵃC). These nucleotide bases have been implicated as intermediates on the path to active demethylation, but recent reports have suggested that they might have specific regulatory roles in their own right. In this study, we present kinetic evidence showing that the catalytic domains (CDs) of TET2 and TET1 from mouse and their homologue from Naegleria gruberi, the full-length protein NgTET1, are distributive in both chemical and physical senses, as they carry out successive oxidations of a single ⁵ᵐC and multiple ⁵ᵐC residues along a polymethylated DNA substrate. We present data showing that the enzyme neither retains ⁵ʰᵐC/⁵ᶠC intermediates of preceding oxidations nor slides along a DNA substrate (without releasing it) to process an adjacent ⁵ᵐC residue. These findings contradict a recent report by Crawford et al. (J. Am. Chem. Soc. 2016, 138, 730) claiming that oxidation of ⁵ᵐC by CD of mouse TET2 is chemically processive (iterative). We further elaborate that this distributive mechanism is maintained for TETs in two evolutionarily distant homologues and posit that this mode of function allows the introduction of ⁵ᵐC forms as epigenetic markers along the DNA.

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